WO2006018183A1 - Cutting tool, particularly for mineral materials - Google Patents

Abstract

The invention relates to a cutting tool (1) for cutting a workpiece (10) made, in particular, of mineral material, and for using in a device with a tool holder that is moved in a periodically pendulous manner via parallelogram rod kinematics. The cutting tool (1) is comprised of an elongated strip-shaped leaf body (2) with a cutting edge (4), which is formed on a longitudinal side and which has a cutting contour that is curved in such a manner that a working contact in the form of a quasi-point contact ensues between the cutting edge (4) and the workpiece (10). The cutting edge (4) is comprised of at least two cutting segments (6), which are arranged one behind the other in the longitudinal direction of the leaf body (2) and have identical curved shapes.

Description

^; Separation system especially for mineral © SViaterialien

The present invention relates to a cutting tool for separating particular consisting of mineral material workpieces and for use in a device with a periodically pendulum-like moving over a Parallelogrammlenkerkinematik tool holder consisting of an elongated strip-shaped blade body with a cutting edge formed on one longitudinal side with such a curved cutting contour in that a working contact takes place in each case in the form of a quasi-point contact between the cutting edge and the workpiece.

DE 39 31 837 C1 describes various embodiments of a device for separating a workpiece with a periodically moving tool holder, which receives at least one sheet-like cutting tool. A drive device with parallelogram linkage kinematics gives the tool holder and thus also the separating tool a pendulum motion with a specific pendulum radius. The cutting tool has a cutting edge with a circular arc-shaped, depending on the design, continuous concave or convex curvature with a certain cutting edge radius. As a result of the pendulum movement, the cutting edge in the workpiece to be separated generates a separating gap with a circular-arc-shaped cutting contour with a specific sectional contour radius. Depending on the design, the cut edge radius is larger or smaller than the resulting cut contour radius.

In the known device is of crucial disadvantage that for the separation of larger workpieces, such. B. of large blocks of stone with a cutting length of for example several meters, the cutting tool must have a correspondingly greater length, due to the necessary Pendelhubbewegung, which also leads to a disadvantageously large pendulum radius. The present invention has for its object to provide a cutting tool of the type mentioned, which is also suitable for the separation of large workpieces with a short length and thereby manages with less Pendelhubbewegung.

According to the invention this is achieved in that the cutting edge consists of at least two in the longitudinal direction of the blade body one behind the other, each having a similar circular arc-shaped cutting segments. In a particularly advantageous embodiment, four to eight, in particular five or six, similar cutting segments in sheet longitudinal direction are provided one behind the other.

As a result of the configuration according to the invention, the necessary pendulum stroke movement is significantly reduced, since a minimum pendulum stroke amplitude required according to the invention results from the amplitude required in the case of only one continuously curved cutting edge according to the prior art divided by the number of cutting segments according to the invention. According to the invention, a quasi-point contact with the workpiece is achieved in the region of each cutting segment, wherein the contact points in the reciprocating movement in the cutting gap to and fro, with the ranges of movement of adjacent contact points preferably overlap. Due to the multiple contact points and a favorable distribution of the cutting forces is achieved. In addition, the required pendulum radius can be reduced favorably. It should be noted that therefore is spoken of a "quasi-point contact", because it can also come to linear engagement areas with different (arc) length depending on the vertical feed and the resulting cutting force.

The invention is basically suitable for all variants described in the aforementioned DE 39 31 837 C1, d. H. for concave or convex cutting edges or cutting segments.

However, the invention will be explained below by way of example only with reference to an embodiment with concavely curved cutting edges or cutting segments. The single figure shows a side view of a preferred embodiment of a separating tool according to the invention with a schematic representation of the Parallelogrammlenkerkinematik. An inventive Trβnnwerkzeug 1 consists of an elongated, strip-shaped and thin-walled blade body 2 with a cutting edge formed on one longitudinal side 4. For the preferred application for the separation of mineral materials, such as stone, granite, marble, silicon or the like, are not on the cutting edge 4 shown cutting elements arranged in particular of diamond or the like.

According to the invention, the cutting edge 4 of several, ie at least two, but preferably four to eight, formed in the longitudinal direction of the blade body 2 consecutive cutting segments 6. Each cutting segment 6 thus has a section 4a of the cutting edge 4, wherein each section 4a is formed in a similar circular arc shape with a cutting edge radius r _s curved.

The cutting tool 1 has an effective overall length L with respect to the effective cutting edge 4. Each cutting segment 6 has a partial length resulting from the total length L divided by the number x of cutting segments 6 (Ux).

The separating element 1 is received by a device not shown in detail and driven by a parallelogram linkage kinematics with two indicated only by dashed lines pendulum arms 8. The pendulum arms 8 define a pendulum radius r _P.

In the illustrated embodiment, the pendulum arms 8 are arranged by a workpiece to be separated 10 pioneering on the tool side. In this case, the cutting edge portion 4a of each cutting segment 6 is concavely curved with the specific cutting edge radius rs. In any case, the cutting edge radius rs is greater than the pendulum radius r _P , and that is preferably the cutting edge radius rs is two to four times the pendulum radius rp. In the kerf 12, this results in a sectional contour with consecutive convex sections.

In the illustrated embodiment for cutting workpieces having a workpiece length Lw of, for example, up to 3000 mm, the effective sheet length L is also about 3000 mm plus the stroke length of the sheet. In the illustrated subdivision in example five cutting segments 6 results for each Cutting segment has a length L / x of about 600 mm. In this case, the cutting edge radius rs is preferably 1500 mm to 3000 mm, in particular about 2000 mm, with a pendulum radius rp of about 800 mm advantageously sufficient. The pendulum radius can be in the range of 600 mm to 1200 mm.

By the invention, a substantial reduction of the required pendulum stroke H and thus the blade length L is achieved. The required minimum pendulum stroke H _m j _n results according to the invention by the relationship:

rp

H _mia = L / x-rs - rp

In the described concrete exemplary embodiment, this leads to the stated, preferred values

However, in this case an additional stroke H _{z is} added. Within the additional stroke Hz, before the stroke reversal, ie, from the stroke dead points, braking and acceleration of the cutting tool 1 occur in the state no longer in engagement with the workpiece. This ensures that when cutting engagement, the cutting tool 1 in the kerf of the workpiece 10 always has a sufficient cutting speed. This results in an effective hub:

Heff-Hmin ⁺ Hz.

This results in a design for a maximum cutting or workpiece length L _w of up to 3000 mm, a blade length of only about 3600 mm with a pendulum radius of only 800 mm compared to about 6500 mm with a required pendulum radius of 4000 mm according to the prior art. It should be noted that the cut edge radius Rs is selected as a function of the vertical relative delivery between the workpiece 10 and the tooling tool 1. Here, the delivery depends mainly on the maximum allowable cutting forces and the longitudinal stability of the blade body 2. Too large a delivery would lead to a run of the sheet. The delivery may therefore only be chosen so large that the sheet is still moved straight through the separating gap 12 in a straight line.

The required minimum stroke H _min is generally about 1/3 to 2/3 of the segment length Ux.

The blade length generally results from the workpiece length plus two times the minimum stroke plus two additional strokes; it is therefore valid

L-Lw ⁺ 2 ^■ Hmin + 2 ^■ Hz.

As an alternative to the specifically illustrated and explained embodiment, the cutting tool 1 may also be formed in analogous application of the teaching disclosed in DE 39 31 837 C1 with convexly curved cutting edges 4a. In this case, either the pendulum arms 8 as in the illustrated embodiment on the tool side from the workpiece 10 can be pioneered. This results in the workpiece 10, a cutting gap contour with concave curved sections, wherein the sectional contour radius is greater than the cutting edge radius. Alternatively, the pendulum arms 8 can also be arranged pointing away from the tool 1 on the side of the workpiece 10. This results from the convex cutting edges in the separating gap, a sectional contour with also convex curved sections. In this case, the sectional contour radius would then be smaller than the cutting edge radius.

In order to avoid the formation of so-called mud pockets, ie an accumulation of separating sludge, the middle cutting segments 6 in the blade body 2 can be offset (upwards) away from the workpiece 10 so that practically oblique, sloping lines are formed in the kerf. This promotes the removal of the separating sludge. The invention is not limited to the illustrated and described embodiments, but also includes all the same in the context of the invention embodiments. Furthermore, the invention has hitherto not been limited to the feature combination defined in claim 1, but may also be defined by any other combination of specific features of all individually disclosed individual features. This means that in principle virtually every single feature of claim 1 can be omitted or replaced by at least one individual feature disclosed elsewhere in the application. In this respect, the claim 1 is to be understood only as a first formulation attempt for an invention.

Claims

claims 1. separating tool (1) for separating a particular consisting of mineral material workpiece (10) and for use in a device with a periodically pendulum-like moving over a Parallelogrammlenkerkinematik tool holder consisting of an elongated strip-shaped blade body (2) with a formed on one longitudinal side Cutting edge (4) with such a curved cutting contour that between the cutting edge (4) and the workpiece (10) is a working contact in the form of a quasi-point contact, dad u rch characterized in that the cutting edge (4) from at least two in the longitudinal direction of the blade body (2) one behind the other, each having a similar arcuate cutting segments (6). 2. Cutting tool according to claim 1 for use in an embodiment of the Parallelogrammlenkerkinematik, are arranged in the pendulum arms (8) from the workpiece (10) pioneering on the tool side, characterized in that each cutting segment (6) concave with a cutting edge radius (rs) In any case, it is greater than a pendulum radius (r _P ) of the parallelogram linkage kinematics, wherein preferably the cutting edge radius (rs) is two to four times the pendulum radius (r _P ). 3. Cutting tool according to claim 1 or 2, characterized in that the cutting edge (4) consists of four to eight cutting segments (6).